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How are mass and volume of water related?
The mass and the volume of the water are directly proportional. When the volume of water increased, the mass of water increased too and vice versa. Because when we divide the mass and the volume of water, we get the constant value called density of water.
How do you compair an objects mass to its volume?
To compare an object's mass to its volume, you can calculate the object's density. Density is defined as mass divided by volume. By determining the density of an object, you can understand how much mass is contained within a given volume.
How do you find relative density of liquid?
To find the relative density of a liquid, you need to compare its density to the density of water. The formula for relative density is the density of the liquid divided by the density of water at a specific temperature. By measuring the mass of a given volume of the liquid and comparing it to the mass of an equal volume of water, you can calculate the relative density.
Formula to find mass of water?
The formula to find the mass of water is: mass = volume x density Where: volume is the amount of water in liters or cubic meters density of water is approximately 1 g/cm³ or 1000 kg/m³
What is the mass of the water inside of the container?
To determine the mass of water inside the container, you would need to know the volume of the water and its density. The mass can be calculated using the formula: mass = volume x density.
How can you determine that a coin is not pure silver if you know the mass and the volume of the coin?
The idea is to divice the mass by the volume, to get the density. Then compare to the density of silver.The idea is to divice the mass by the volume, to get the density. Then compare to the density of silver.The idea is to divice the mass by the volume, to get the density. Then compare to the density of silver.The idea is to divice the mass by the volume, to get the density. Then compare to the density of silver.
Why would you need information about both mass and volume to compare density?
that's it. just mass and volume
Describe two ways to compare the densities of unknown substances?
You can always compare the densities by the formula d=m/v, where m is the mass and v is the volume . However; a simpler technique is to put the objects in some water . The densities can be compared by how much water each of them will displace.
What is the relationship of volume of water to its mass?
The volume of water is directly proportional to its mass. This means that as you increase the volume of water, the mass will also increase proportionally. Conversely, if you decrease the volume of water, the mass will decrease accordingly.
How are mass and volume of water related?
The mass and the volume of the water are directly proportional. When the volume of water increased, the mass of water increased too and vice versa. Because when we divide the mass and the volume of water, we get the constant value called density of water.
How does freezing water affect the volume and mass of water?
The volume increase, mass does not change.
How could you find the density of water?
density = mass/volume Determine the mass and volume of the water, and then divide the mass by the volume, and that will give you the density.
What is the volume and mass of water?
The volume of water is the same as the mass of water. So if you have 100ml of water you actually have 100g of water.
How do you compair an objects mass to its volume?
To compare an object's mass to its volume, you can calculate the object's density. Density is defined as mass divided by volume. By determining the density of an object, you can understand how much mass is contained within a given volume.
What is the volume of water if the mass is 118 mL?
The volume of water is 118 mL, since the mass and volume of water are equivalent at room temperature.
How many tablespoons in 150g?
you can not compare grams (mass) and tablespoons (volume). Those units are not compatible.
How many milliliters equals 15 milligrams?
For water : .015 But you're trying to compare a volume (ml) with a weight {mass actually} (mg).
